US6980542B2 - Poll scheduling for periodic uplink and downlink traffic - Google Patents
Poll scheduling for periodic uplink and downlink traffic Download PDFInfo
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- US6980542B2 US6980542B2 US10/673,709 US67370903A US6980542B2 US 6980542 B2 US6980542 B2 US 6980542B2 US 67370903 A US67370903 A US 67370903A US 6980542 B2 US6980542 B2 US 6980542B2
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- 230000000737 periodic effect Effects 0.000 title abstract description 6
- 230000002123 temporal effect Effects 0.000 claims abstract description 99
- 238000000034 method Methods 0.000 claims abstract description 21
- 230000005540 biological transmission Effects 0.000 claims description 22
- 230000001934 delay Effects 0.000 abstract description 3
- 238000010586 diagram Methods 0.000 description 8
- 230000004044 response Effects 0.000 description 1
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Classifications
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W74/00—Wireless channel access
- H04W74/04—Scheduled access
- H04W74/06—Scheduled access using polling
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L12/00—Data switching networks
- H04L12/54—Store-and-forward switching systems
- H04L12/56—Packet switching systems
- H04L12/5601—Transfer mode dependent, e.g. ATM
- H04L12/5602—Bandwidth control in ATM Networks, e.g. leaky bucket
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L43/00—Arrangements for monitoring or testing data switching networks
- H04L43/08—Monitoring or testing based on specific metrics, e.g. QoS, energy consumption or environmental parameters
- H04L43/0852—Delays
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L47/00—Traffic control in data switching networks
- H04L47/50—Queue scheduling
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W84/00—Network topologies
- H04W84/02—Hierarchically pre-organised networks, e.g. paging networks, cellular networks, WLAN [Wireless Local Area Network] or WLL [Wireless Local Loop]
- H04W84/10—Small scale networks; Flat hierarchical networks
- H04W84/12—WLAN [Wireless Local Area Networks]
Definitions
- the present invention relates to telecommunications in general, and, more particularly, to poll scheduling for periodic traffic sources.
- FIG. 1 depicts a schematic diagram of an exemplary wireless local-area network (LAN) 100 in the prior art comprising access point 101 , stations 102 - 1 through 102 -N, wherein N is a positive integer, and hosts 103 - 1 through 103 -N, interconnected as shown.
- PDA personal digital assistant
- Access point 101 and stations 102 - 1 through 102 -N transmit blocks of data called frames.
- a frame typically comprises a data portion, referred to as a payload, and a control portion, referred to as a header.
- Frames transmitted from a station 102 -i to access point 101 are referred to as uplink frames, and frames transmitted from access point 101 to a station 102 -i are referred to as downlink frames.
- a series of frames transmitted from a station 102 -i to access point 101 is referred to as an uplink traffic stream, or simply an uplink stream, and a series of frames transmitted from access point 101 to a station 102 -i is referred to as a downlink traffic stream, or simply a downlink stream.
- Access point 101 and stations 102 - 1 through 102 -N transmit frames over a shared-communications channel such that if two or more stations (or an access point and a station) transmit frames simultaneously, then one or more of the frames can become corrupted (resulting in a collision). Consequently, local-area networks typically employ protocols for ensuring that a station or access point can gain exclusive access to the shared-communications channel for an interval of time in order to transmit one or more frames.
- Such protocols can be classified into two types: contention-based protocols, and contention-free protocols.
- contention-based protocols stations 102 - 1 through 102 -N and access point 101 compete to gain exclusive access to the shared-communications channel, just as, for example, several children might fight to grab a telephone to make a call.
- a coordinator In a contention-free protocol, in contrast, a coordinator (e.g., access point 101 , etc.) grants access to the shared-communications channel to one station at a time.
- An analogy for contention-free protocols is a parent (i.e., the coordinator) granting each of several children a limited amount of time on the telephone to talk, one at a time.
- One technique in which a coordinator can grant access to the shared-communications channel is polling.
- a station that wishes to be polled submits a polling request (also referred to as a reservation request) to the coordinator.
- the coordinator subsequently sends a poll to the requesting station, granting that station exclusive access to the shared-communications channel for an interval of time. Since the coordinator polls only one station at a time, and stations transmit only in response to a poll from the coordinator, polling-based protocols can provide contention-free access to the shared-communications channel.
- access point 101 In some local-area networks where access point 101 acts as the coordinator, such as those based on the Institute of Electrical and Electronics Engineers (IEEE) 802.11 standard, access point 101 combines, when possible, a payload and a poll into a single downlink frame. For the purposes of this specification, such a frame is referred to as a downlink data/poll frame.
- IEEE Institute of Electrical and Electronics Engineers
- the present invention enables a station that (i) queues a frame for transmission on a periodic basis, and (ii) receives frames that are queued for transmission on a periodic basis by another station, to be polled without some of the costs and disadvantages for doing so in the prior art.
- the illustrative embodiment determines when to transmit a downlink data/poll frame to such a station based on
- the access point transmits downlink data/poll frames either (i) soon after the access point receives a frame for forwarding to the station, thereby reducing the delay of downlink frames, or (ii) such that the downlink data/poll frame arrives at the station soon after the station has generated a frame for transmission, thereby reducing the delay of uplink frames.
- the access point selects from (i) and (ii) based on the resultant delays for the non-selected stream. (For example, if selecting (i) results in a 5 millisecond delay for uplink frames, and selecting (ii) results in a 9 millisecond delay for downlink frames, then (i) is selected.)
- the illustrative embodiment comprises: receiving (i) a temporal period ⁇ , (ii) a first temporal offset ⁇ 1 for a first stream of frames generated by a first device in accordance with the temporal period ⁇ , and (iii) a second temporal offset ⁇ 2 for a second stream of frames that arrives at a second device in accordance with the temporal period ⁇ , wherein the second stream of frames is for forwarding to the first device; and determining a third temporal offset ⁇ 3 based on at least one of ⁇ 1 and ⁇ 2 for a third stream of frames transmitted from the second device to the first device in accordance with the temporal period ⁇ , wherein each frame of the third stream comprises a poll and a payload of a respective frame of the second stream.
- FIG. 1 depicts a schematic diagram of an exemplary wireless local-area network 100 in the prior art.
- FIG. 2 depicts a schematic diagram of a portion of local area network 200 in accordance with the illustrative embodiment of the present invention.
- FIG. 3 depicts a block diagram of the salient components of access point 201 , as shown in FIG. 2 , in accordance with the illustrative embodiment of the present invention.
- FIG. 4 depicts a block diagram of the salient components of station 202 -i, as shown in FIG. 2 , in accordance with the illustrative embodiment of the present invention.
- FIG. 5 depicts a flowchart of an algorithm for determining a temporal offset for access point 201 's transmitting of downlink data/poll frames to a station 202 -i when the temporal periods of the downlink stream to and uplink stream from station 202 -i are equal, in accordance with the illustrative embodiment of the present invention.
- FIG. 6 depicts a flowchart of the salient tasks performed by access point 201 in executing the algorithm of FIG. 5 and transmitting a downlink data/poll frame to station 202 -i accordingly.
- FIG. 7 depicts a flowchart of the salient tasks performed by access point 201 in determining when to transmit a downlink data/poll frame to a station 202 -i when the temporal period of the downlink stream to station 202 -i is less than the temporal period of the uplink stream from station 202 -i, in accordance with the illustrative embodiment of the present invention.
- FIG. 8 depicts a flowchart of the salient tasks performed by access point 201 in determining when to transmit a downlink data/poll frame to a station 202 -i, when the temporal period of the downlink stream to station 202 -i is greater than the temporal period of the uplink stream from station 202 -i, in accordance with the illustrative embodiment of the present invention.
- FIG. 2 depicts a schematic diagram of local-area network 200 in accordance with the illustrative embodiment of the present invention.
- Local-area network 200 comprises access point 201 , stations 202 - 1 through 202 -N, wherein N is a positive integer, and hosts 203 - 1 through 203 -N, interconnected as shown.
- each station 202 -i wherein i is a member of the set ⁇ 1, 2, . . . N ⁇ , is associated with a respective host 203 -i, and enables host 203 -i to communicate wirelessly with other hosts in local-area network 200 via access point 201 .
- Host 203 -i is a device (e.g., notebook computer, personal digital assistants [PDA], tablet PCs, etc.) capable of generating data payloads and transmitting those data payloads to station 202 -i.
- Host 203 -i is also capable of receiving data payloads from station 202 -i, and of processing and using the data contained within those data payloads.
- Station 202 -i is capable of receiving data payloads from host 203 -i and of transmitting frames that comprise the data received from host 203 -i over a shared-communications channel.
- Station 202 -i is also capable of receiving frames from a shared-communications channel and sending data payloads comprising data from the frames to host 203 -i.
- Access point 201 receives uplink frames from one or more of stations 202 - 1 through 202 -N, and transmits downlink data/poll frames to one or more of stations 202 - 1 through 202 -N as described below and with respect to FIG. 6 through FIG. 8 .
- FIG. 3 depicts a block diagram of the salient components of access point 201 in accordance with the illustrative embodiment of the present invention.
- Access point 201 comprises receiver 301 , processor 302 , memory 303 , and transmitter 304 , interconnected as shown.
- Receiver 301 is a circuit that is capable of receiving frames from shared-communications channel 203 , in well-known fashion, and of forwarding them to processor 302 . It will be clear to those skilled in the art how to make and use receiver 301 .
- Processor 302 is a general-purpose processor that is capable of executing instructions stored in memory 303 , of reading data from and writing data into memory 303 , and of executing the tasks described below and with respect to FIG. 6 through FIG. 8 .
- processor 302 might be a special-purpose processor. In either case, it will be clear to those skilled in the art how to make and use processor 302 .
- Memory 303 is capable of storing programs and data used by processor 302 , as is well-known in the art, and might be any combination of random-access memory (RAM), flash memory, disk drive, etc. It will be clear to those skilled in the art how to make and use memory 303 .
- Transmitter 304 is a circuit that is capable of receiving frames from processor 302 , in well-known fashion, and of transmitting them on shared-communications channel 203 . It will be clear to those skilled in the art how to make and use transmitter 304 .
- FIG. 4 depicts a block diagram of the salient components of station 202 -i, wherein i ⁇ ⁇ 1, 2, . . . , N ⁇ , in accordance with the illustrative embodiment of the present invention.
- Station 202 -i comprises receiver 401 , processor 402 , memory 403 , and transmitter 404 , interconnected as shown.
- Receiver 401 is a circuit that is capable of receiving frames from shared-communications channel 203 , in well-known fashion, and of forwarding them to processor 402 . It will be clear to those skilled in the art how to make and use receiver 401 .
- Processor 402 is a general-purpose processor that is capable of executing instructions stored in memory 403 , and of reading data from and writing data into memory 403 .
- processor 402 might be a special-purpose processor. In either case, it will be clear to those skilled in the art, after reading this disclosure, how to make and use processor 402 .
- Memory 403 is capable of storing programs and data used by processor 402 , as is well-known in the art, and might be any combination of random-access memory (RAM), flash memory, disk drive, etc. It will be clear to those skilled in the art how to make and use memory 403 .
- Transmitter 404 is a circuit that is capable of receiving frames from processor 402 , in well-known fashion, and of transmitting them on shared-communications channel 203 . It will be clear to those skilled in the art how to make and use transmitter 404 .
- FIG. 5 depicts a flowchart of an algorithm for determining a temporal offset for access point 201 's transmitting of downlink data/poll frames to a station 202 -i when the temporal periods of the downlink stream to and uplink stream from station 202 -i are equal, in accordance with the illustrative embodiment of the present invention.
- the temporal period ⁇ of the uplink and downlink streams for station 202 -i (i) the temporal offset ⁇ 1 for the uplink stream from station 202 -i, and (iii) the temporal offset ⁇ 2 for the downlink stream to station 202 -i, are received.
- these parameters might be provided by station 202 -i, or the station that transmits the downlink traffic stream to station 202 -i, or an observer (e.g., access point 201 , a station 202 -j, etc.), or some combination thereof.
- a temporal offset variable ⁇ 3 is set to ⁇ 2 +G, wherein G is a processing delay associated with generating a downlink data/poll frame based on the data payload of a frame received for forwarding to station 202 -i.
- G is a processing delay associated with generating a downlink data/poll frame based on the data payload of a frame received for forwarding to station 202 -i.
- a downlink data/poll frame that is transmitted in accordance with this temporal offset ⁇ 3 is therefore sent soon after the downlink data/poll frame is generated.
- temporal offset variable ⁇ 3 is set to ⁇ 1 ⁇ T, wherein T is the transmission delay associated with transmitting a downlink data/poll frame to station 202 -i.
- T is the transmission delay associated with transmitting a downlink data/poll frame to station 202 -i.
- a downlink data/poll frame that is transmitted in accordance with this temporal offset ⁇ 3 therefore arrives at station 202 -i soon after station 202 -i has queued a frame for transmission.
- FIG. 6 depicts a flowchart of the salient tasks performed by access point 201 in executing the algorithm of FIG. 5 and transmitting a downlink data/poll frame to station 202 -i accordingly.
- access point 201 receives from a station 202 -i a polling request that specifies a temporal period ⁇ and temporal offset ⁇ 1 for a periodic uplink traffic stream.
- access point 201 receives a downlink traffic stream for forwarding to station 202 -i, wherein the downlink traffic stream has a temporal period ⁇ and temporal offset ⁇ 2 .
- a temporal offset variable ⁇ 3 is set to ⁇ 2 +G, wherein G is a processing delay associated with generating a downlink data/poll frame based on the data payload of a frame received for forwarding to station 202 -i.
- temporal offset variable ⁇ 3 is set to ⁇ 1 ⁇ T, wherein T is the transmission delay associated with transmitting a downlink data/poll frame to station 202 -i.
- FIG. 7 depicts a flowchart of the salient tasks performed by access point 201 in determining when to transmit a downlink data/poll frame to a station 202 -i when the temporal period of the downlink stream to station 202 -i is less than the temporal period of the uplink stream from station 202 -i, in accordance with the illustrative embodiment of the present invention.
- access point 201 receives a frame of a downlink traffic stream for forwarding to station 202 -i, wherein the downlink traffic stream has a temporal period ⁇ 1 and temporal offset ⁇ 1 .
- access point 201 sets variable ⁇ 1 to the current time (i.e., the time at which the downlink frame is received at task 710 ).
- access point 201 determines the time ⁇ 2 at which the next uplink frame of station 202 -i will be queued for transmission, based on the temporal period ⁇ 2 and temporal offset ⁇ 2 of 202 -i's uplink traffic stream.
- access point 201 At task 730 , access point 201 generates a frame F comprising a poll and the payload of the downlink frame received at task 710 .
- access point 201 tests inequality ⁇ 2 ⁇ ( ⁇ 1 + ⁇ 1 /2). If the inequality holds, execution proceeds to task 760 , otherwise execution proceeds to task 750 .
- access point 201 transmits frame F to station 202 -i in well-known fashion. After completion of task 750 , execution continues back at task 710 .
- access point 201 sets variable ⁇ 3 to ⁇ 2 ⁇ T, wherein T is the transmission delay associated with transmitting a downlink data/poll frame to station 202 -i.
- access point 201 transmits frame F to station 202 -i at time ⁇ 3 in well-known fashion. After completion of task 770 , execution continues back at task 710 .
- FIG. 8 depicts a flowchart of the salient tasks performed by access point 201 in determining when to transmit a downlink data/poll frame to a station 202 -i when the temporal period of the downlink stream to station 202 -i is greater than the temporal period of the uplink stream from station 202 -i, in accordance with the illustrative embodiment of the present invention.
- access point 201 determines the queueing time ⁇ 1 of the next frame of station 202 -i's uplink traffic stream, where the uplink traffic stream has temporal period ⁇ 1 , and temporal offset ⁇ 1 .
- access point 201 determines the arrival time ⁇ 2 at access point 201 of the next frame of station 202 -i's downlink traffic stream, where the downlink traffic stream has temporal period ⁇ 2 and temporal offset ⁇ 2 .
- access point 201 generates a frame F comprising a poll.
- access point 201 tests inequality ⁇ 2 ⁇ ( ⁇ 1 + ⁇ 1 /2). If the inequality holds, execution proceeds to task 870 , otherwise execution proceeds to task 850 .
- access point 201 adds the payload of the downlink frame received at task 820 to frame F.
- access point 201 transmits frame F to station 202 -i in well-known fashion. After completion of task 860 , execution continues back at task 810 .
- access point 201 sets variable ⁇ 3 to ⁇ 2 ⁇ T, wherein T is the transmission delay associated with transmitting a poll-only frame (i.e., no payload) to station 202 -i.
- access point 201 transmits frame F to station 202 -i at time ⁇ 3 in well-known fashion. After completion of task 880 , execution continues back at task 810 .
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- Small-Scale Networks (AREA)
Abstract
Description
-
- (i) the temporal period, or periodicity, of the station's uplink traffic stream;
- (ii) the temporal offset, or phase, of the station's uplink traffic stream;
- (iii) the temporal period of the downlink traffic stream to the station; and
- (iv) the temporal offset of the downlink traffic stream to the station;
such that delays for either the downlink traffic stream or the uplink traffic stream are reduced. This is especially advantageous for latency-sensitive applications such as voice and video telecommunications.
Claims (20)
(i) 0≦(φ1−φ2)≦π/2, and
(ii) (φ1−φ2)≦−π/2;
(i) (φ1−φ2)>π/2, and
(ii) −π/2<(φ1−φ2)<0.
(i) 0≦(φ1−φ2)≦π/2, and
(ii) (φ1−φ2)≦−π/2;
(i) (φ1−φ2)>π/2, and
(ii) −π/2<(φ1−φ2)<0.
(i) 0≦(φ1−φ2)≦π/2, and
(ii) (φ1−φ2)≦−π/2;
(i) (φ1−φ2)>π/2, and
(ii) −π/2<(φ1−φ2)<0.
Priority Applications (1)
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US10/673,709 US6980542B2 (en) | 2002-12-16 | 2003-09-29 | Poll scheduling for periodic uplink and downlink traffic |
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US43360402P | 2002-12-16 | 2002-12-16 | |
US10/673,709 US6980542B2 (en) | 2002-12-16 | 2003-09-29 | Poll scheduling for periodic uplink and downlink traffic |
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US20040120354A1 US20040120354A1 (en) | 2004-06-24 |
US6980542B2 true US6980542B2 (en) | 2005-12-27 |
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US10/674,178 Expired - Lifetime US7154876B2 (en) | 2002-12-16 | 2003-09-29 | Exploratory polling for periodic traffic sources |
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US20040264397A1 (en) * | 2002-12-16 | 2004-12-30 | Mathilde Benveniste | Power-saving mechanism for periodic traffic streams in wireless local-area networks |
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US20080207126A1 (en) * | 2007-02-28 | 2008-08-28 | Asif Grushkevich | Method and System for Dynamically Changing Poll Timing Based on Bluetooth Activity |
US8073388B2 (en) * | 2007-02-28 | 2011-12-06 | Broadcom Corporation | Method and system for dynamically changing poll timing based on Bluetooth activity |
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US20040131039A1 (en) | 2004-07-08 |
US7154876B2 (en) | 2006-12-26 |
US20040120354A1 (en) | 2004-06-24 |
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